@article {
author = {Konishi, Eiji},
title = {On-shell Equation of the Lorentzian Classicalized Holographic Tensor Network},
journal = {Journal of Holography Applications in Physics},
volume = {3},
number = {3},
pages = {37-44},
year = {2023},
publisher = {Damghan University Press},
issn = {2783-4778},
eissn = {2783-3518},
doi = {10.22128/jhap.2023.679.1052},
abstract = {In the Lorentzian classicalized holographic tensor network (cHTN), we derive its relativistic on-shell equation from its Lorentzian action in the presence of a relativistic massive particle in the bulk spacetime: $-\sigma \hbar \theta=Mc^2$.Here, $\sigma$ is the von Neumann entropy of the cHTN per site in nats, $\theta$ is the real-proper-time expansion of the cHTN defined along the world line of the particle, and $M$ is the non-zero mass of the particle.We explain the physical properties, interpretation, and consequences of this equation.Specifically, from this equation we derive the properties of the on-shell proper acceleration of another massive particle in the bulk spacetime as those of the gravitational acceleration induced by the original massive particle.},
keywords = {Holographic Principle,Quantum Entanglement,Holographic Tensor Network,Classicalization},
url = {https://jhap.du.ac.ir/article_340.html},
eprint = {https://jhap.du.ac.ir/article_340_32d95622308c9d447e20d3a641a0def3.pdf}
}